This research paper analyzes the urgent topic of quantum cybersecurity and the current federal quantum-cyber landscape. Quantum-safe implementations within existing and future Internet of Things infrastructure are dis...This research paper analyzes the urgent topic of quantum cybersecurity and the current federal quantum-cyber landscape. Quantum-safe implementations within existing and future Internet of Things infrastructure are discussed, along with quantum vulnerabilities in public key infrastructure and symmetric cryptographic algorithms. Other relevant non-encryption-specific areas within cybersecurity are similarly raised. The evolution and expansion of cyberwarfare as well as new developments in cyber defense beyond post-quantum cryptography and quantum key distribution are subsequently explored, with an emphasis on public and private sector awareness and vigilance in maintaining strong security posture.展开更多
The response-spectrum mode superposition method is widely used for seismic response analyses of linear systems. In using this method, the complete quadratic combination (CQC) is adopted for classically damped linear...The response-spectrum mode superposition method is widely used for seismic response analyses of linear systems. In using this method, the complete quadratic combination (CQC) is adopted for classically damped linear systems and the complex complete quadratic combination (CCQC) formula is adopted for non-classically damped linear systems. However, in both cases, the calculation of seismic response analyses is very time consuming. In this paper, the variation of the modal correlation coefficients of displacement, velocity and displacement-velocity with frequency and damping ratios of two modes of interest are studied, Moreover, the calculation errors generated by using CQC and square-root-of-the-sum-of-thesquares (SRSS) methods (or CCQC and CSRSS methods) for different damping combinations are compared. In these analyses, some boundary lines for classically and non-classically damped systems are plotted to distinguish the allowed minimum frequency ratio at given geometric mean of the damping ratios of both modes if their relativity is neglected. Furthermore, the simplified method, which is a special mode quadratic combination method considering only relativity of adjacent modes in CQC method and named simplified CQC or partial quadratic combination (PQC) method for classically damped linear system, is proposed to improve computational efficiency, and the criterion for determination of how many correlated modes should be adopted is proposed. Similarly, the simplified CCQC or complex partial quadratic combination (CPQC) method for the non-classically damped linear system and the corresponding criterion are also deduced. Finally, a numerical example is given to illustrate the applicability, computational accuracy and efficiency of the PQC and CPQC methods.展开更多
A three-phase confocal elliptical cylinder model is proposed to analyze micromechanics of one-dimensional hexagonal piezoelectric quasicrystal (PQC) compos- ites. Exact solutions of the phonon, phason, and electric ...A three-phase confocal elliptical cylinder model is proposed to analyze micromechanics of one-dimensional hexagonal piezoelectric quasicrystal (PQC) compos- ites. Exact solutions of the phonon, phason, and electric fields are obtained by using the conformal mapping combined with the Laurent expansion technique when the model is subject to far-field anti-plane mechanical and in-plane electric loadings. The effective elec- troelastic constants of several different composites made up of PQC, quasicrystal (QC), and piezoelectric (PE) materials are predicted by the generalized self-consistent method. Numerical examples are conducted to show the effects of the volume fraction and the cross-sectional shape of inclusion (or fiber) on the effective electroelastic constants of these composites. Compared with other micromechanical methods, the generalized self- consistent and Mori-Tanaka methods can predict the effective electroelastic constants of the composites consistently.展开更多
iezoelectric fiber-optic spectroelectrochemistry(PFOSEC), a new techniqueof spectroelectrochemistry (SEC)in combination with piezoelectric quartz crystal(PQC)detection is proposed. In this technique, one arm of a bifu...iezoelectric fiber-optic spectroelectrochemistry(PFOSEC), a new techniqueof spectroelectrochemistry (SEC)in combination with piezoelectric quartz crystal(PQC)detection is proposed. In this technique, one arm of a bifurcated fiber-opticprobe is used to conduct the incident light beam to the investigated solution andthen to the reflective electrode surface on the piezoelectric quartz crystal, and thereflection light beam is guided to the optical detector by the other arm of the opticfiber. A typical experiinental system, Cu(Ⅱ)in glycine and KNO_3 supporting elec-trolyte, was used here to test this new technique. Results show that this techniquecan provide substantial in situ information from SEC, PQC and conventional elec-trochemistry in the investigation of the electrochemical process. This novel techiqueis recommended to find wider application in the electrochemical study not only onsolution species but also on surface phenomena.展开更多
Simultaneous impedance analysis of three one-face sealed resonating piezoelectric quartz crystals (PQCs) in parallel is proposed through admittance measurements of the three PQCs on one impedance analyzer and then non...Simultaneous impedance analysis of three one-face sealed resonating piezoelectric quartz crystals (PQCs) in parallel is proposed through admittance measurements of the three PQCs on one impedance analyzer and then non-linear fitting according to the parallel combination of three Butterworth-Van Dyke circuits. Responses of each PQC obtained from the three-PQC mode agreed well with those measured separately in series sucrose aqueous solutions. This novel method has been used for the study of depletion-layer effect during ferri-/ferrocyanide electrochemical reactions.展开更多
基金This work is partly financed via National Key Research and Development Program of China(2020AAA0107700)National Natural Science Foundation of China(62227805,62072398)+6 种基金SUTD-ZJU IDEA Grant for visiting professors(SUTD-ZJUVP201901)Alibaba-Zhejiang University Joint Institute of Frontier TechnologiesNational Key Laboratory of Science and Technology on Information System Security(6142111210301)State Key Laboratory of Mathematical Engineering and Advanced ComputingKey Laboratory of Cyberspace Situation Awareness of Henan Province(HNTS2022001)RISQ(http://risq.fr/)PIA ProjectBRAINE Project from European Union’s Horizon 2020/ECSEL research and innovation program(N◦876967)。
文摘This research paper analyzes the urgent topic of quantum cybersecurity and the current federal quantum-cyber landscape. Quantum-safe implementations within existing and future Internet of Things infrastructure are discussed, along with quantum vulnerabilities in public key infrastructure and symmetric cryptographic algorithms. Other relevant non-encryption-specific areas within cybersecurity are similarly raised. The evolution and expansion of cyberwarfare as well as new developments in cyber defense beyond post-quantum cryptography and quantum key distribution are subsequently explored, with an emphasis on public and private sector awareness and vigilance in maintaining strong security posture.
基金National Natural science Foundation of China Under Grant No. 50178007 and No.50408005
文摘The response-spectrum mode superposition method is widely used for seismic response analyses of linear systems. In using this method, the complete quadratic combination (CQC) is adopted for classically damped linear systems and the complex complete quadratic combination (CCQC) formula is adopted for non-classically damped linear systems. However, in both cases, the calculation of seismic response analyses is very time consuming. In this paper, the variation of the modal correlation coefficients of displacement, velocity and displacement-velocity with frequency and damping ratios of two modes of interest are studied, Moreover, the calculation errors generated by using CQC and square-root-of-the-sum-of-thesquares (SRSS) methods (or CCQC and CSRSS methods) for different damping combinations are compared. In these analyses, some boundary lines for classically and non-classically damped systems are plotted to distinguish the allowed minimum frequency ratio at given geometric mean of the damping ratios of both modes if their relativity is neglected. Furthermore, the simplified method, which is a special mode quadratic combination method considering only relativity of adjacent modes in CQC method and named simplified CQC or partial quadratic combination (PQC) method for classically damped linear system, is proposed to improve computational efficiency, and the criterion for determination of how many correlated modes should be adopted is proposed. Similarly, the simplified CCQC or complex partial quadratic combination (CPQC) method for the non-classically damped linear system and the corresponding criterion are also deduced. Finally, a numerical example is given to illustrate the applicability, computational accuracy and efficiency of the PQC and CPQC methods.
基金Projected supported by the National Natural Science Foundation of China(Nos.11502123 and11262012)the Natural Science Foundation of Inner Mongolia Autonomous Region of China(No.2015JQ01)
文摘A three-phase confocal elliptical cylinder model is proposed to analyze micromechanics of one-dimensional hexagonal piezoelectric quasicrystal (PQC) compos- ites. Exact solutions of the phonon, phason, and electric fields are obtained by using the conformal mapping combined with the Laurent expansion technique when the model is subject to far-field anti-plane mechanical and in-plane electric loadings. The effective elec- troelastic constants of several different composites made up of PQC, quasicrystal (QC), and piezoelectric (PE) materials are predicted by the generalized self-consistent method. Numerical examples are conducted to show the effects of the volume fraction and the cross-sectional shape of inclusion (or fiber) on the effective electroelastic constants of these composites. Compared with other micromechanical methods, the generalized self- consistent and Mori-Tanaka methods can predict the effective electroelastic constants of the composites consistently.
文摘由于量子计算机的飞速发展,现代密码学面临着巨大的挑战。为了实现抗量子计算机攻击的加密,人们提出了许多新的加密方案,并对后量子密码学(Post-Quantum Cryptography,PQC)开展了标准化进程。Leighton-Micali签名(Leighton-Micali sig-nature,LMS)是一种基于哈希的后量子签名方案,其私钥和公钥尺寸都较小,且安全性已被充分研究。LMS被互联网工程小组(Internet Engineering Task Force,IETF)选为PQC签名协议的标准方案,同时被美国国家标准技术局(National Institute of Standards and Technology,NIST)选为一种PQC过渡方案。然而,密钥生成过程中的效率低下,成为了LMS实际应用中的瓶颈。在本文中,我们首次对LMS进行基于FPGA的硬件实现与加速。首先,在不损失安全性的基础上,我们将LMS中的主要哈希函数由SHA2替换为SHA3函数。其次,我们设计了一个软硬件协同系统,将核心的哈希运算用硬件进行实现,该系统在消耗较少资源的前提下,可完成LMS协议的所有过程:密钥生成、签名与验证。该系统为物联网(Internet of things,IoT)场景下资源受限的LMS应用提供了参考。接着,我们提出了一个高速的密钥生成架构来加速LMS。该架构中具有可配置性,支持LMS的所有参数集,内部的哈希模块根据使用场景进行设计与部署,且并行度经过精心设计,以使得架构同时达到低延迟和高硬件利用率。此外,设计中的控制逻辑被设计为在适应不同参数集的情况下保持一定程度的恒定功率,以抵御功率分析攻击。该架构使用Verilog实现,并在Xilinx Zynq UltraScale+MPSoC ZCU104 FPGA平台上实验。实验结果表明,与在Intel(R)Core(TM)i7-6850K 3.60GHz CPU上启用多线程的目前较优软件实现相比,本文中的设计在不同参数配置下可实现55x~2091x的加速;与最新的各平台LMS工作相比,本文中设计可实现超过17x的加速;与相近方案的FPGA工作相比,本文中设计可实现约70x的加速。
文摘iezoelectric fiber-optic spectroelectrochemistry(PFOSEC), a new techniqueof spectroelectrochemistry (SEC)in combination with piezoelectric quartz crystal(PQC)detection is proposed. In this technique, one arm of a bifurcated fiber-opticprobe is used to conduct the incident light beam to the investigated solution andthen to the reflective electrode surface on the piezoelectric quartz crystal, and thereflection light beam is guided to the optical detector by the other arm of the opticfiber. A typical experiinental system, Cu(Ⅱ)in glycine and KNO_3 supporting elec-trolyte, was used here to test this new technique. Results show that this techniquecan provide substantial in situ information from SEC, PQC and conventional elec-trochemistry in the investigation of the electrochemical process. This novel techiqueis recommended to find wider application in the electrochemical study not only onsolution species but also on surface phenomena.
文摘Simultaneous impedance analysis of three one-face sealed resonating piezoelectric quartz crystals (PQCs) in parallel is proposed through admittance measurements of the three PQCs on one impedance analyzer and then non-linear fitting according to the parallel combination of three Butterworth-Van Dyke circuits. Responses of each PQC obtained from the three-PQC mode agreed well with those measured separately in series sucrose aqueous solutions. This novel method has been used for the study of depletion-layer effect during ferri-/ferrocyanide electrochemical reactions.